Single-particle tracking (SPT) enables the ability to noninvasively probe the diffusive motions of individual proteins inside living cells at sub-diffraction-limit resolution. The stochastic motions of diffusing Rho GTPases encode information concerning its interactions with binding partners and with its local environment. By identifying Rho GTPases' diffusive states, insight can thus be gained into the spatiotemporal in vivo biochemistry inside live cells at a single-molecule resolution. Here we present perturbation expectation-maximization (pEM), a computational method which simultaneously analyzes a population of protein trajectories to uncover the system of diffusive behaviors: (1) the number of diffusive states, (2) the properties of e...
The translational motion of molecules in cells deviates from what is observed in dilute solutions. T...
The field of single-molecule tracking has an immense potential as it can theoretically resolve with ...
The plasma membrane consists of a diverse mixture of molecules that dynamically assemble into a high...
<div><p>Resolving distinct biochemical interaction states when analyzing the trajectories of diffusi...
Resolving distinct biochemical interaction states when analyzing the trajectories of diffusing prote...
Item does not contain fulltextSingle molecule tracking of membrane proteins by fluorescence microsco...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...
Single molecule tracking of membrane proteins by fluorescence microscopy is a promising method to in...
International audienceWe present a Bayesian framework for inferring spatio-temporal maps of diffusiv...
AbstractWe present experiments in which single proteins were imaged and tracked within mammalian cel...
Many facets of mathematics, science and engineering rely on numerical methods to study complex syste...
Single-particle tracking enables the analysis of the dynamics of biomolecules in living cells with n...
The translational motion of molecules in cells deviates from what is observed in dilute solutions. T...
Single particle tracking is a powerful technique often used in the study of dynamic mechanisms on th...
The extraction of hidden information from complex trajectories is a continuing problem in single-par...
The translational motion of molecules in cells deviates from what is observed in dilute solutions. T...
The field of single-molecule tracking has an immense potential as it can theoretically resolve with ...
The plasma membrane consists of a diverse mixture of molecules that dynamically assemble into a high...
<div><p>Resolving distinct biochemical interaction states when analyzing the trajectories of diffusi...
Resolving distinct biochemical interaction states when analyzing the trajectories of diffusing prote...
Item does not contain fulltextSingle molecule tracking of membrane proteins by fluorescence microsco...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...
Single molecule tracking of membrane proteins by fluorescence microscopy is a promising method to in...
International audienceWe present a Bayesian framework for inferring spatio-temporal maps of diffusiv...
AbstractWe present experiments in which single proteins were imaged and tracked within mammalian cel...
Many facets of mathematics, science and engineering rely on numerical methods to study complex syste...
Single-particle tracking enables the analysis of the dynamics of biomolecules in living cells with n...
The translational motion of molecules in cells deviates from what is observed in dilute solutions. T...
Single particle tracking is a powerful technique often used in the study of dynamic mechanisms on th...
The extraction of hidden information from complex trajectories is a continuing problem in single-par...
The translational motion of molecules in cells deviates from what is observed in dilute solutions. T...
The field of single-molecule tracking has an immense potential as it can theoretically resolve with ...
The plasma membrane consists of a diverse mixture of molecules that dynamically assemble into a high...